|Publication number||US7011242 B2|
|Application number||US 10/017,746|
|Publication date||Mar 14, 2006|
|Filing date||Dec 7, 2001|
|Priority date||Dec 7, 2001|
|Also published as||CA2465209A1, CA2465209C, US20030115738, US20060124686, US20100008745, WO2003049906A1|
|Publication number||017746, 10017746, US 7011242 B2, US 7011242B2, US-B2-7011242, US7011242 B2, US7011242B2|
|Inventors||Van Barlow, Onno Boswinkel, Robert Haynes, Richard Gold|
|Original Assignee||Acme Staple Company, Inc.|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (20), Referenced by (15), Classifications (13), Legal Events (7)|
|External Links: USPTO, USPTO Assignment, Espacenet|
The present invention is directed towards a coated staple and a staple gun or fastener driving or applying tool for driving such staples into surfaces.
Staple, nail, brad, screw and other fastener-driving applying tools for industrial, commercial and do-it-yourself (DIY) use are well known. Often such tools are used to secure cables, wires, tubing and the like to a substrate such as wood by driving the fastener into the substrate, the fastener thereby surrounding the cable, wire or tubing on three sides. However, the fastener being applied may at the time of application (due to the impact of the fastener) or subsequently (due to wire and/or substrate expansion or contraction over time) penetrate, damage or deform the item being fastened, resulting in an electrical short circuit, leak or other deleterious effect.
It is often desirable to secure wire or cable, including without limitation high speed transmission multimedia cable and wire (such as CAT-5 and RG6) and NM Building Wire (also known as “Romex” wire), to substrates using staples and so-called insulators. The use of these so-called insulators, which may also provide a cushioning function, minimizes the possibility that the staple will penetrate, damage or deform the sheathing on the wire and cause an electrical short or change in current. The use of pre-assembled individual staples and insulators, installed by means of a hammer or similar implement, is conventional. However, this method is slow, tedious, and not very precise.
Attempts to improve the efficiency and standardization of the current process have largely focused on use of hand powered cable tacker staplers to install collated and cohered pre-assemblies of staples and so-called insulators. Each individual assembly of a staple and insulator has tended to be similar in essential form to the hammer-applied assemblies now widely employed. These attempts have proved to be inadequate and unsuccessful because they either do not install the staple/insulator assemblies in a manner which meets industry requirements for staple holding power (such as those described in UL specifications) for a wide range of wire types and diameters used in typical residential and commercial construction, or the cable tacker staplers used require too much hand pressure or too broad a range of hand motion for the average user to comfortably operate them so that they install the assemblies in accordance with such industry requirements. In addition, the quantity of staples/insulators that fit in a typically sized magazine is small, resulting in frequent reloading. This type of staple/insulator assembly is also relatively expensive.
It is therefore an object of the present invention to provide an improved insulated or coated fastener which helps minimize or eliminate the possibility that the fastener penetrates, damages or deforms the sheathing of the wire being fastened.
It is a further object of the present invention to provide an improved fastener driving tool or gun that ensures consistent, uniform and reproducible driving depth of the fastener into the substrate.
It is a still further object of the present invention to provide a fastening device that automatically and repeatably drives insulated or coated fasteners to a predetermined depth into a substrate to secure an object therein.
It is a still further object of the present invention to provide a fastener gun driven insulated or coated fastener which is relatively less expensive than those currently in use.
It is a still further object of the present invention to provide a system of a fastening device and a more compact insulated or coated staple or fastener which requires less frequent reloading.
The problems of the prior art have been overcome by the present invention, which provides an insulated or coated staple and a fastening tool for driving the same into a substrate. The tool includes a housing and a driver reciprocally mounted in the housing and moveable with respect to the housing, the driver having a driving surface for engaging a fastener such as a coated staple. A magazine assembly is associated with the housing for holding one or more coated fasteners, and for positioning and aligning a coated fastener in the path of the driver so that when actuated, the driver strikes the fastener and forcibly ejects it from the magazine into the substrate onto which the object to be fastened is to be secured. Suitable fasteners include coated staples (of various sizes and configurations), nails, brads, rivets, etc.
Turning first to
Pressing downward on the handle 2 first causes a pair of opposite lips L, L′ of lifter 2C, which lips engage the drive blade assembly 4, to lift the drive blade assembly 4 upward against the bias of driver spring 6. Further downward pressure of the handle 2 causes the lips L, L′ to release from the drive blade assembly 4, thereby causing the driver spring 6 to force the drive blade assembly 4 downward. The downward force imparted to the drive blade assembly 4 by the spring 6 causes the head H of the drive blade assembly to strike a staple located at the forwardmost end of the magazine assembly 15 and in the path of the drive blade, and drive the staple into the work surface below. Those skilled in the art will recognize that other ways to actuate the drive blade, including any stored energy source (such as leaf springs, torsion springs, electricity, hydraulics and compressed gas (e.g. air)) can be used.
Turning now to
Turning now to
The coating for the staple 50 is made of a material that is insulating and/or cushioning and forms a strong bond with the base metal of the fastener or staple. Suitable base metals include, without limitation, bright steel and galvanized steel. The coating material cannot be too brittle, or it will tear during the staple forming process. It is preferred that the coating material be different from the wire material. Nylon, or plastics containing nylon material, including without limitation polyacetal, polymide, polycarbonate, polyethylene, polypropylene, polyurethane, polyvinylchloride, polyvinylidene fluoride, and blends and combinations thereof, are particular preferred for the coating. Coating with nylon provides insulation. It also provides, depending upon the thickness of the coating, cushioning so that upon impact of the staple with the wire or cable being fastened, the wire is even less likely to be crushed, damaged or deformed, which could cause short circuits or other deleterious effects on the electrical current being transmitted. In addition, penetration of the staple leg 51,52 into the substrate causes the wood fibers adjacent to the staple leg 51,52 to, in effect, act as barbs in the coating material, thereby making the staple leg more difficult to extract, thereby resulting in additional holding power. Preferably the coating is of a uniform thickness of from a minimum of about 1000 mils to a maximum that will vary based on the staple leg length, the dimension of the article to be attached to the substrate, and the substrate into which the article is to be attached. In the current application this maximum thickness has been found to be 0.050 inches. A thickness of from about 0.001 inches to about 0.010 inches is preferred. Preferably all of the staple, or at least the portion contacting the wire or other item to be attached, is coated, although the faces 57 of angled edges of each leg 51, 52 may be devoid of coating since they are formed by cutting the wire after it is coated. The coating adheres to the wire and forms an integral unitary structure. Although the staple wire and coating perform different functions (e.g., the wire staple provides strength while the coating provides holding power in the substrate and has electrical insulating properties while also providing a protective barrier to prevent the wire staple material from damaging the electrical wire being stapled), the adhesion of the coating on the wire is such that the coating does not engage in substantial independent movement relative to the wire once the coating is adhered, even upon application of the fastener in the substrate. Such independent movement would adversely affect the functioning of the fastener.
The coating can be extruded onto the wire prior to the staple-forming process. The coating can also be applied by spraying, dipping or other processes well known to those versed in the art of wire coating. The base wire (e.g., galvanized steel) is made first using conventional wire drawing processes, and then the coating (e.g., nylon) is applied around the wire in a subsequent process.
Other suitable coatings include, without limitation, dielectric materials such as thermoplastic elastomers, including polyethylene, polypropylene, polybutylene, PVC, CPVC, nylon, ABS and PVDF, with nylon being preferred.
In view of the dimension of the coating, the staples can be accommodated by conventional staple tacker gun magazines with little or no modification thereof. Any modifications deemed necessary to accommodate the increased outer width and decreased inner width of the staple resulting from the coating are generally well within the skill of those versed in the art of staple tacker gun manufacture.
The staple gun of the preferred embodiment of the present invention is adapted to drive U-shaped staples (releasably interconnected in the staple magazine) into a substrate in order to secure an object such as wire, cable or tubing to the substrate.
Those skilled in the art will recognize that any stored energy source can be used to actuate the driver of the fastening tool, including, without limitation, mechanical means, compressed air, electric means, hydraulics, etc.
In operation, the fastening tool of the preferred embodiment of the present invention is used as follows. First, cohered cores of articles such as fasteners (e.g., insulated or coated staples) are loaded into the magazine. Staples in these cores are preferably cohered in a side-by-side relation. The tool is then aligned over the object to be fastened. Upon actuation of the driver, fasteners are expelled from the magazine, one at a time, around the object to be fastened on three sides and into the substrate. The staple pusher in the magazine assembly automatically urges the next article (e.g., coated staple) into axial alignment with the drive path to be expelled by the next complete drive stroke.
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|US20060124686 *||Feb 1, 2006||Jun 15, 2006||Van Barlow||Coated staple and fastening tool for the same|
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|U.S. Classification||227/120, 132/902|
|International Classification||B25C5/06, F16B15/00, B25C5/00|
|Cooperative Classification||Y10T29/49, Y10S132/902, F16B15/0092, B25C5/06, B25C5/00|
|European Classification||B25C5/00, B25C5/06, F16B15/00D|
|Apr 1, 2002||AS||Assignment|
Owner name: ACME STAPLE COMPANY, INC., NEW HAMPSHIRE
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:BARLOW, VAN;BOSWINKEL, ONNO;HAYNES, ROBERT;AND OTHERS;REEL/FRAME:012792/0840
Effective date: 20020312
|Oct 19, 2009||REMI||Maintenance fee reminder mailed|
|Mar 9, 2010||FPAY||Fee payment|
Year of fee payment: 4
|Mar 9, 2010||SULP||Surcharge for late payment|
|Oct 25, 2013||REMI||Maintenance fee reminder mailed|
|Mar 14, 2014||FPAY||Fee payment|
Year of fee payment: 8
|Mar 14, 2014||SULP||Surcharge for late payment|
Year of fee payment: 7